CN207120935U - Full-automatic multistage stacking conveying device for more bag package machine linkage production lines - Google Patents

Abstract

The utility model discloses a kind of full-automatic multistage stacking conveying device for more bag package machine linkage production lines, including conveyer belt mechanism, in the top of conveyer belt mechanism, connection is supported by hopper, and hopper is interior by forming multiple feed bins along the uniform dividing plate in its longitudinal direction, it is characterized in that：Both sides are respectively symmetrically provided with the one-level gate and two level gate arranged up and down in each feed bin on hopper, for each feed bin to be divided into the one-level feed bin and two level feed bin arranged up and down；The one-level gate and two level gate are passed by the elongated hole on hopper side plate and are connected to gate driving device respectively；Guiding supporting plate is arranged between conveyer belt mechanism and hopper, supporting plate drive device is respectively equipped with conveyer belt mechanism both sides, supporting plate drive device is connected with the guiding supporting plate of homonymy respectively.Beneficial effect is：Compact-sized, run action is accurate, steady, reliable, efficient, and noise is low, is adapted to more bags of stackings to be especially suitable for completing more than 9 layers super more bags of stackings, blanking with conveying operation.

Description

Full-automatic multistage stacking conveying device for more bag package machine linkage production lines

Technical field

The utility model is related to a kind of package packing machine, it is more particularly to a kind of for more bag package machine linkage production lines it is complete from Move multistage stacking conveying device.

Background technology

At present, it is existing linkage packaging production line more bags (more than 5 bags) packaging when, one-level stacking of generally use, Blanking and parallel-moving type transfering conveying device, especially more than 9 bags when more bags of packagings, superposition stacking blanking, packed article falls Material and the stability of transfer conveying are unable to effective guarantee, and more bags of superpositions and stacking are in dropping process caused by drop is too big Bag has generation more with sliding bag phenomenon, has a strong impact on the quality and efficiency of packaging production.

With packaging industry intellectualized reconstruction and the active demand of upgrading and the high speed development of industry, particularly China's Chinese medicine Granular preparation production gives priority to field as what country supported energetically, and life is packed in high speed, efficient, high reliability bar bag linkage Producing line is increasingly by the active demand in market.Therefore high speed, efficient, the automatic multi-step stacking of high reliability, automatic guiding The research and development of blanking and automatic transfering conveying device, it is that the packaging production line that links realizes more bags of packaging productions and supporting required.

The content of the invention

Technical problem to be solved in the utility model is to provide a kind of compact-sized, run action is accurate, it is steady, can Lean on, efficiently, noise is low, is adapted to more bags of stackings to be especially suitable for completing more than 9 layers super more bags of stackings, blanking and the use of conveying operation In the full-automatic multistage stacking conveying device of more bag package machine linkage production lines.

The technical solution of the utility model is as follows：

A kind of full-automatic multistage stacking conveying device for more bag package machine linkage production lines, including conveyer belt mechanism, Pocket baffle plate is evenly equipped with conveyer belt mechanism, in the top of conveyer belt mechanism, connection is supported by hopper, in hopper by along its The uniform dividing plate in longitudinal direction forms multiple feed bins, and it is characterized in that：Both sides are respectively symmetrically provided with each feed bin on hopper The one-level gate and two level gate arranged up and down, for each feed bin to be divided into the one-level feed bin and two level feed bin arranged up and down； The one-level gate and two level gate are passed by the elongated hole on hopper side plate and are connected to gate driving device respectively, are used for The switch of one-level gate and two level gate is controlled respectively；

Guiding supporting plate is arranged with positioned at pocket baffle plate both sides between conveyer belt mechanism and hopper, in conveyer belt mechanism two Side is respectively equipped with supporting plate drive device, and supporting plate drive device is connected with the guiding supporting plate of homonymy respectively, and supporting plate is guided for driving Pump and realize splicing.

As further preferred, the one-level gate and two level gate in each feed bin are forked and by hopper In outside insertion feed bin, the gate connecting plate arranged up and down, the one-level gate and two level gate point are respectively equipped with hopper both sides It is not connected as a single entity with corresponding gate connecting plate.

As further preferred, the gate driving device includes two drivings for being symmetrically arranged at hopper both ends inner chamber respectively Cylinder, the cylinder rod of two drive cylinders are passed by hopper side plate and connect a gate connecting rod respectively, and the gate connecting plate is fixed On corresponding gate connecting rod.

As further preferred, the hopper both ends are connected to conveyer belt mechanism both sides by a Troffer respectively.

As further preferred, at least two T-shaped connecting plates, the supporting plate driving are respectively equipped with the outside of the guiding supporting plate Device connects one to one including at least two duplex cylinders, the piston rod of duplex cylinder with T-shaped connecting plate.

As further preferred, positioned at pocket baffle plate both sides, symmetrically suspension has L-type side between conveyer belt mechanism and hopper Baffle plate, is uniformly connected with support arm on the side plate of conveyer belt mechanism both sides, and the side shield is fixed on together by short axle respectively It is supported on the support arm of side and by support arm on conveyer belt mechanism.

As further preferred, corresponded on side shield and be provided with elongate holes, the T along longitudinal direction respectively at T-shaped connecting plate Type connecting plate is passed through by corresponding elongate holes respectively.

The beneficial effects of the utility model are：

1st, due in each feed bin on hopper both sides be respectively symmetrically provided with the one-level gate and two level lock arranged up and down Door, each feed bin is divided into the one-level feed bin and two level feed bin arranged up and down；Control one-level material respectively by gate driving device The switch of storehouse and two level feed bin realizes two level segmentation stacking superposition, and blanking is highly only original half drop, and blanking is stable Property be obviously improved, hence it is evident that reduce pocket superposition placing height, avoid single bag of superposition due to drop is high and triggers blanking not Steady phenomenon.

2nd, due to being arranged between conveyer belt mechanism and hopper positioned at pocket baffle plate both sides by supporting plate drive device Drive the guiding supporting plate that can be pumped；By guiding supporting plate to realize guiding blanking, fall after reducing superposition stacking The total height of material, avoids that the high blanking triggered of drop after stacking is unstable and bag and sliding bag phenomenon, energy because pocket is superimposed When enough realizing more bags of superposition stacking blankings, the blanking and the stability of transfer conveying of packed article.

3rd, compact-sized, run action is accurate, steady, reliable, efficiently, and noise is low, be adapted to 5~8 layers of more bags of stacking with it is defeated The stacking blanking sent, it is especially suitable for completing more bags super to more than 9 layers of stacking, blanking and conveying operation.

Brief description of the drawings

Fig. 1 is structural representation of the present utility model.

Fig. 2 is Fig. 1 top view.

Fig. 3 is Fig. 1 A-A sectional views.

In figure：Conveyer belt mechanism 1, pocket baffle plate 2, servomotor 3, Troffer 4, hopper 5, gate connecting rod 6, elongated hole 7, Gate connecting plate 8, T-shaped connecting plate 9, adjustable seats 10, support arm 11, side plate 12, duplex cylinder 13, elongate holes 14, side shield 15, two level feed bin 16, one-level feed bin 17, dividing plate 18, one-level gate 19, two level gate 20, guiding supporting plate 21, drive cylinder 22, Feed bin 23.

Embodiment

Below in conjunction with the accompanying drawing in the utility model embodiment, the technical scheme in the embodiment of the utility model is carried out Clearly and completely describing, it is clear that described embodiment is only the utility model part of the embodiment, rather than whole Embodiment.Based on the embodiment in the utility model, those of ordinary skill in the art are not under the premise of creative work is made The all other embodiment obtained, belong to the scope of the utility model protection.

As shown in Figure 1-Figure 3, what be the utility model is related to is a kind of for the full-automatic more of more bag package machine linkage production lines Level stacking conveying device, including a conveyer belt mechanism 1 driven by servomotor 3, on the conveyer belt of conveyer belt mechanism 1 L-type pocket baffle plate 2 is uniformly fixed with longitudinally through screw along it, connection is supported by hopper 5 in the top of conveyer belt mechanism 1, should Hopper 5 is formed by two hopper side plates and two end plate connections positioned at hopper side plate both ends.The end plate at the both ends of hopper 5 point It is not supported on by a connection of Troffer 4 on the side plate 12 of the both sides of conveyer belt mechanism 1.

In the interior edge of hopper 5, it is longitudinally uniformly fixed with multipair dividing plate 18 and forms multiple feed bins 23, and the present embodiment is with six material Exemplified by storehouse.Both sides are respectively symmetrically provided with the one-level gate 19 and two level gate arranged up and down in each feed bin 23 on hopper 5 20, for each feed bin 23 to be divided to one-level feed bin 17 and two level feed bin 16 to arrange up and down.The one-level gate 19 and two level Gate 20 is passed by the elongated hole 7 on hopper side plate and is connected to gate driving device respectively, for controlling one-level lock respectively The switch of door 19 and two level gate 20.The one-level gate 19 and two level gate 20 in each feed bin be it is forked and by In the outside of hopper 5 insertion feed bin, the gate connecting plate 8 of about two arrangements, the one-level gate 19 are respectively equipped with the both sides of hopper 5 It is connected as a single entity respectively with corresponding gate connecting plate 8 with two level gate 20.

The gate driving device includes symmetrically being fixed on two drive cylinders 22 of the both ends inner chamber of hopper 5 respectively, two The cylinder rod of drive cylinder 22 is passed by hopper side plate and connects a gate connecting rod 6 respectively, and the gate connecting plate 8 is consolidated by screw Corresponding to being scheduled on gate connecting rod 6.

Guiding supporting plate 21 is arranged with positioned at the both sides of pocket baffle plate 2 between conveyer belt mechanism 1 and hopper 5, in conveyer belt The both sides of mechanism 1 are respectively equipped with supporting plate drive device, and supporting plate drive device is connected with the guiding supporting plate 21 of homonymy respectively, for driving Guiding supporting plate 21, which pumps, realizes splicing.

The outside of guiding supporting plate 21 is respectively equipped with least two T-shaped connecting plates 9 with the one of guiding supporting plate 21, the support Plate drive device is driven using cylinder or servomotor, and supporting plate drive device described in the present embodiment includes at least two duplex gas Cylinder 13, duplex cylinder 13 are arranged on the side plate of conveyer belt mechanism 1 by adjustable seats 10 respectively, the piston rod of duplex cylinder 13 Connected one to one with the outer end of T-shaped connecting plate 9.

Positioned at the both sides of pocket baffle plate 2, symmetrically suspension has L-type side shield 15 between conveyer belt mechanism 1 and hopper 5, is conveying Support arm 11 is uniformly connected with side plate with the both sides of mechanism 1 by screw, the side shield 15 is fixed on by short axle respectively It is supported on the support arm 11 of homonymy and by support arm 11 on conveyer belt mechanism 1.

Corresponded on the side shield 15 and be provided with elongate holes 14, the T-shaped connection along longitudinal direction respectively at T-shaped connecting plate 9 Plate 9 is passed through and can slided up and down along elongate holes 14 by corresponding elongate holes 14 respectively.

The automatic controller (not shown) of the servomotor 3 and more bag package machines electrically connects, the drive cylinder 22 and duplex cylinder 13 electrically connected respectively by magnetic valve and the automatic controller, to control servomotor 3, driving gas respectively The action of cylinder 22 and duplex cylinder 13, so as to control the start and stop of conveyer belt mechanism 1, one-level gate 19 and two level gate 20 respectively The lifting of switch and guiding supporting plate 21.

During work, after capturing powder charge into each one-level feed bin 17 simultaneously by multiple manipulators on pouch neatening machine Pocket, after first time stacking pocket reaches the regulation bag number pre-set in one-level feed bin 17, controlled by automatic controller The drive cylinder 22 of connection one-level gate 19 acts, and drives the one-level gate 19 of the lower end of one-level feed bin 17 overhanging by gate connecting rod Open, multilayer pocket is fallen on automatically on the two level gate 20 of the lower end of two level feed bin 16, realize that first time stacking pockets.

After first time stacking pockets to two level feed bin 16 and performed, retracted by drive cylinder 22 and control one-level gate 19 to close Close and continue stacking blanking into one-level feed bin 17, when meeting number of plies requirement, by the drive cylinder 22 for connecting one-level gate 19 Action control, one-level gate 19 is automatically opened up again, multilayer pocket continue fall on automatically in the raw material pile of two level feed bin 16 Face, realize second of superposition stacking blanking.

After second of superposition stacking blanking, above-mentioned stacking blanking is repeated according to the pocket number of plies of setting and acted, until two level After the raw material pile number of plies of feed bin 16 reaches the number of plies of setting, the automatic controller control duplex cylinder 13 acts, duplex cylinder 13 drive guiding supporting plate 21 to rise to top by T-shaped connecting plate 9, are now driven by connecting the drive cylinder 22 of two level gate 20 Two level gate 20 automatically opens up, and meets the required amount of multilayer pocket of regulation and falls on guiding supporting plate 21 and be directed supporting plate 21 1 Rising and lift, the return of duplex cylinder 13 drives guiding supporting plate 21 to decline, after multilayer pocket drops to lower end with guiding supporting plate 21, servo Motor 3 starts, and multilayer pocket is carried out into horizontal transfer conveying by conveyer belt mechanism 1, until next process is reached, it is such as automatic Clip loading system etc..So far, the action process of the multilayer stacking blanking of a standard is completed in multistage stacking with guiding supporting plate 21, and this is dynamic Move in circles, realization is worked continuously.

Although embodiment of the present utility model is disclosed as above, it is not restricted in specification and embodiment Listed utilization, it can be applied to various suitable fields of the present utility model completely, for those skilled in the art, Other modification is easily achieved, therefore under the universal limited without departing substantially from claim and equivalency range, this reality Specific details is not limited to new and shown here as the legend with description.

Claims (7)

1. a kind of full-automatic multistage stacking conveying device for more bag package machine linkage production lines, including conveyer belt mechanism, Pocket baffle plate is evenly equipped with conveyer belt mechanism, connection is supported by hopper in the top of conveyer belt mechanism, and hopper is interior by vertical along it Multiple feed bins are formed to uniform dividing plate, it is characterized in that：Both sides are respectively symmetrically provided with upper and lower cloth in each feed bin on hopper The one-level gate and two level gate put, for each feed bin to be divided into the one-level feed bin and two level feed bin arranged up and down；Described one Level gate and two level gate are passed by the elongated hole on hopper side plate and are connected to gate driving device respectively, for controlling respectively The switch of one-level gate and two level gate processed；

Guiding supporting plate is arranged with positioned at pocket baffle plate both sides between conveyer belt mechanism and hopper, in conveyer belt mechanism both sides point Not She You supporting plate drive device, supporting plate drive device is connected with the guiding supporting plate of homonymy respectively, for driving above and below guiding supporting plate Splicing is realized in reciprocating motion.

2. the full-automatic multistage stacking conveying device according to claim 1 for more bag package machine linkage production lines, its It is characterized in：The one-level gate and two level gate in each feed bin are forked and by being inserted on the outside of hopper in feed bin, The gate connecting plate arranged up and down is respectively equipped with hopper both sides, the one-level gate and two level gate connect with corresponding gate respectively Plate is connected as a single entity.

3. the full-automatic multistage stacking conveying device according to claim 2 for more bag package machine linkage production lines, its It is characterized in：The gate driving device includes two drive cylinders for being symmetrically arranged at hopper both ends inner chamber, two driving gas respectively The cylinder rod of cylinder is passed by hopper side plate and connects a gate connecting rod respectively, and the gate connecting plate is fixed on corresponding gate connecting rod On.

4. the full-automatic multistage stacking conveying device according to claim 1 for more bag package machine linkage production lines, its It is characterized in：The hopper both ends are connected to conveyer belt mechanism both sides by a Troffer respectively.

5. the full-automatic multistage stacking conveying device according to claim 1 for more bag package machine linkage production lines, its It is characterized in：At least two T-shaped connecting plates are respectively equipped with the outside of the guiding supporting plate, the supporting plate drive device includes at least two Duplex cylinder, the piston rod of duplex cylinder connect one to one with T-shaped connecting plate.

6. the full-automatic multistage stacking conveying device according to claim 5 for more bag package machine linkage production lines, its It is characterized in：Positioned at pocket baffle plate both sides, symmetrically suspension has L-type side shield between conveyer belt mechanism and hopper, in conveyer belt mechanism Support arm is uniformly connected with the side plate of both sides, the side shield is fixed on the support arm of homonymy and passed through by short axle respectively Support arm is supported on conveyer belt mechanism.

7. the full-automatic multistage stacking conveying device according to claim 6 for more bag package machine linkage production lines, its It is characterized in：Corresponded on side shield and be provided with elongate holes along longitudinal direction respectively at T-shaped connecting plate, the T-shaped connecting plate is respectively by right The elongate holes answered pass through.